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Homotopy Iteration Algorithm for Crack Parameters Identification with Composite Element Method

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  • Ling Huang
  • Zhongrong Lv
  • Weihuan Chen
  • Jike Liu

Abstract

An approach based on homotopy iteration algorithm is proposed to identify the crack parameters in beam structures. In the forward problem, a fully open crack model with the composite element method is employed for the vibration analysis. The dynamic responses of the cracked beam in time domain are obtained from the Newmark direct integration method. In the inverse analysis, an identification approach based on homotopy iteration algorithm is studied to identify the location and the depth of a cracked beam. The identification equation is derived by minimizing the error between the calculated acceleration response and the simulated measured one. Newton iterative method with the homotopy equation is employed to track the correct path and improve the convergence of the crack parameters. Two numerical examples are conducted to illustrate the correctness and efficiency of the proposed method. And the effects of the influencing parameters, such as measurement time duration, measurement points, division of the homotopy parameter and measurement noise, are studied.

Suggested Citation

  • Ling Huang & Zhongrong Lv & Weihuan Chen & Jike Liu, 2013. "Homotopy Iteration Algorithm for Crack Parameters Identification with Composite Element Method," Mathematical Problems in Engineering, Hindawi, vol. 2013, pages 1-10, November.
    • Handle: RePEc:hin:jnlmpe:524562
    DOI: 10.1155/2013/524562
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